Reception power level calculating circuit and receiver using the same

1. A reception power level calculating circuit for a receiver comprising an AGC amplifier for amplifying received signal, a demodulating circuit for demodulating the output of the AGC amplifier, an analog-to-digital converter for converting the demodulation output of the demodulating circuit to a digital signal, a filter for attenuating the digital output of the analog-to-digital converter outside a desired frequency band, a base-band circuit for base-band processing the output of the filter, an AGC control reception power level calculating means for calculating a reception power level to generate a control signal for controlling the AGC amplifier, an attenuated power level calculating means for calculating the power level having been attenuated in the filter, and a power level correcting means for correcting the result of calculation in the AGC control reception power level calculating means with the result of calculation in the attenuated power level calculating means and reporting the corrected power level to the base-band circuit.

2. The reception power level calculating circuit according to claim 1 , wherein the AGC control reception power level calculating means includes a means for computing the output power level of the analog-to-digital converter, and a control voltage generating means for generating the control voltage on the basis of the computation output of the computing means.

3. The reception power level calculating circuit according to claim 1 , wherein the attenuated power level calculating means includes a means for computing the difference between the output power levels of the filter and the analog-to-digital converter and a means for computing the difference between the computed difference and the computed result by the AGC reception power level calculating means.

4. A receiver comprising: an antenna for receiving a signal, a front terminal circuit for removing received signal components outside a desired frequency band and amplify and frequency convert a received signal, an AGC amplifier for amplifying the received signal, a demodulating circuit for demodulating the output of the AGC amplifier, an analog-to-digital converter for converting the demodulation output of the demodulating circuit to a digital signal, a filter for attenuating the analog output of the analog-to-digital converter outside a desired frequency band, a base-band circuit for base-band processing the output of the filter, an AGC control reception power level calculating means for calculating a reception power level to generate a control signal for controlling the AGC amplifier, an attenuated power level calculating means for calculating the power level having been attenuated in the filter, and a power level correcting means for correcting the result of calculation in the AGC control reception power level calculating means with the result of calculation in the attenuated power level calculating means and reporting the corrected power level to the base-band circuit.

5. The receiver according to claim 1 , wherein the AGC control reception power level calculating means includes a means for computing the output power level of the analog-to-digital converter, and a control voltage generating means for generating the control voltage on the basis of the computation output of the computing means.

6. The receiver according to claim 1 , wherein the attenuated power level calculating means includes a means for computing the difference between the output power levels of the filter and an analog-to-digital converter.

7. A receiver comprising an AGC amplifier for amplifying received signal, a demodulating circuit for demodulating the output of the AGC amplifier, an analog-to-digital converter for converting the demodulation output of the demodulating circuit to a digital signal, a filter for attenuating the digital output of the analog-to-digital converter outside a desired frequency band, a base-band circuit for base-band processing the output of the filter, an AGC control reception power level calculating means for calculating a reception power level to generate a control signal for controlling the AGC amplifier, an attenuated power level calculating means for calculating the power level having been attenuated in the filter, and a power level correcting means for correcting the result of calculation in the AGC control reception power level calculating means with the result of calculation in the attenuated power level calculating means and reporting the corrected power level to the base-band circuit, wherein the base-band circuit receives a report from the power level correcting means and uses the received report as data for power level control with respect to the opposite side of communication.

8. A receiver comprising an AGC amplifier for amplifying received signal, a demodulating circuit for demodulating the output of the AGC amplifier, an analog-to-digital converter for converting the demodulation output of the demodulating circuit to a digital signal, a filter for attenuating the digital output of the analog-to-digital converter outside a desired frequency band, a base-band circuit for base-band processing the output of the filter, an AGC control reception power level calculating means for calculating a reception power level to generate a control signal for controlling the AGC amplifier, an attenuated power level calculating means for calculating the power level having been attenuated in the filter, and a power level correcting means for correcting the result of calculation in the AGC control reception power level calculating means with the result of calculation in the attenuated power level calculating means and reporting the corrected power level to the base-band circuit, which is a CDMA communication system mobile station.

9. A receiver in which received signal through an antenna is amplified by AGC amplifier, decoded, and A/D converted by A/D converter, frequency band outside a desired frequency is suppressed by a channel filter and the filtered output is processed by a base-band circuit, comprising: power calculator for calculating power signal based on the digital data from the A/D converter; gain controller for determining a difference signal between the power signal and a predetermined reference level determined based on the input range of the A/D converter, integrating the difference signal, and converting the integrated difference signal to an analog signal to supply the converted analog signal to the AGC amplifier as a gain control signal; and subtracter for subtracting an attenuation power level from the integrated difference signal and supplying the subtracted signal to the base-band processor as a reference signal.

10. The receiver according to claim 1 , wherein the attenuation power level of the channel filter is determined by a difference between the input and output of the channel filter.

11. The receiver according to claim 1 , wherein the base-band processor determine SIR, i.e., ratio between the desired frequency power level contained in the received signal and interference power level and controls the transmission power level on the basis of the determined SIR.

12. The receiver according to claim 1 , wherein the receiver as set forth in claim 1 is a receiver in a mobile station in CDMA communication system.